A New Method for the Preparation of Azo Dyes1 - Journal of the

Publication Date: December 1950. ACS Legacy Archive. Cite this:J. Am. Chem. Soc. 72, 12, 5779-5781. Note: In lieu of an abstract, this is the article'...
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Dec., 1960

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acid. Methoxyl group : cakd. for CloH110.0CHa, 17.4%; found 17.4%. Mixed melting point determination with dehydroperillic acid supplied by Dr. A. B. Anderson, m. p. 88". OREGON FOREST PRODUCTS LABORATORY AND DEPARTMENT O F CHEMISTRY OREGON STATE COLLEGE CORVALLIS, OREGON RECEIVED J U L Y 31, i950

Phosphonation with a Phosphite Ester of Propanediol BY F. W. MITCHELL,JR.,'

AND

H. J. LUCAS

The reaction of trialkyl phosphites with alkyl halides in the Arbuzov reaction2 is essentially a phosphonation reaction] since one product is an ester of a phosphonic acid. The reaction has been studied fairly extensively with acyclic and has been extended recently to cyclic trialkyl phosphites derived from ethanediol and 3methoxy- 1,2-propanedi01.~ Whereas ethyl ethylene phosphite (2-ethoxy-1,3,2-dioxaphospholane)6 underwent the isomerization reaction with ring opening, the presence of the methoxymethyl side chain in esters of 3-methoxy-l,2-propanediol led to ring stabilization. When the isomerization reagent was ethyl bromide the reaction product was the cyclic ester of ethanephosphonic acid. In connection with work on cyclic trialkyl phosphites derived from glycols6it has been found Hac-CH-0

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0.2 mole (32.8 9.) of 2-isopropoxy-1,3,2-dioxaphospho1ane and 0.2 mole (30.2 g.) of 1-bromopentane, b. p., 127127.5", were heated at rduxing temperature for a period of 9 hours, during which time isopropyl bromide slowly distilled; weight 19 g. (78y0yield) ; b. p. 57.5-58.5' at 745 mm.; n% 1.4216 (literature value 1.4251). Distillation of the residue gave 28 g. (73% yield) of propylene pentane-1-phosphonate, a slightly viscous liquid, b. p. 131-132"at 1.5 mm., 1ZZD 1.4481, dz54 1.1052. Hydrolysis of 10 g. (0.052 mole) with 6 N HCls for 30 minutes, followed by slow distillation with paraformaldehyde according to the procedure of Senkus7 gave 3 ml. (63% yield) of formal. Excess formaldehyde was removed from the boiler liquid as methalal, b. p. 44-45', and the water was evaporated at reduced pressure, leaving a dark brown oil which partly solidified overnight. Oil and solid were separated from each other by flotation with a carbon tetrachloride-ligroin mixture. Crystallization of the solid from hot ligroin gave 2.3 g. (25y0 yield) of thin colorless plates, m. p. 120-122 O, believed to be pentafle1-phosphonic acid.* (6) Similar to the procedure of G. M. Kosolapoff, ibid., 67, 1180 (1945), who used concentrated acid, however. (7) M. Senkus, Ind. Eng. Chcm., 38, 913 (19461, recovered 2,3butanediol from dilute aqueous solutions by conversion to the formal. (8) Of the fourteen normal alkanephosphonic acids listed by Kosolapoff4 none of the others melted higher than 106'.

CONTRIBUTION N O . 1437'FROM THE GATESAND CRELLIN LABORATORIES O F CHEMISTRY CALIFORNIA INSTITUTE O F TECHNOLOGY PASADENA 4, C a m . RECEIVED JULY 20, 1950

A New Method for the Preparation of Azo Dyes' BY EUGENELIEBERAND KONRAD PARKER~

4- CHa(CI12)aBr+

While investigating the formation of N-Ar-N 'nitroguanidines, where Ar is a polycyclic aromatic hydrocarbon radical, by the method of McKay I H&-O-b(O)-(CHz)rCHa 4- (CH&CHBr and Wrighta using N-methyl-N-nitroso-"-nitrothat 2-isopropoxy-4-methyl-1,3,2-dioxaphospho-guanidine (I), it was observed that a-naphthyllane (isopropyl propylene phosphite) when heated with l-bromopentane undergoes the Arbuzov reaction without ring opening. The product is propylene penNO NHNOz tane- 1-phosphonate (2-oxo-2-namyl - 4-methyl-l,312-dioxaphospholane). The recovery of isof HN= propyl bromide in 78% yield indicates this is essentially the sole reaction. The stability of the ring system in this case is in agreement with the conclusions of the Russian workers14that a side chain in the glycol amine gave rise to two products; N-(a-naphresidue increases the stability of the ring system. thy1)-N'4troguanidine (11), the expected product, in 25% yield (based on the nitroso compound Experimental In a boiler attached to a distillation column held at 60°, used), and a large amount of dark brownish-green needles having dye properties. This was subse(1) National Aniline and Film Corporation, Easton, Pa. quently identified as Pamino-a, a-azo-naphtha(2) A. E. Arbuzov and A. A. Dunin, J . Russ. Phys.-Chew. Soc., lene4 and amounted to 50% of the theoretical yield 46, 295 (1914); A. E. Arbuzov, "On the Structure of Phosphorous I12C-O--P-O-CH(CIlj)~ H3C-CH-0

05

Acid," N. Alexandria, 1905. JOURNAL, 66, 109 (1944). A number (3) G. M. Kosolapoff. THIS of references to earlier work are given. (4) A. E. Arbuzov, V M. Zoroaster and N. T. Rizpolorhenski?, Bull. acad. s c i. U.R . S . S . Classc sci. chitn., 208, 1948; cf. C. A . , 42, 4932 (1948).

(5) H. J. Lucas, F. W'. Rlilchell, J r , and C. N.Scully, THIS JOUR72, 5491 (1950).

NAL,

(1) Studies in the Guanidine Series. VIII. (2) Abstracted from a portion of the thesis submitted by Konrad Parker to the Graduate School of Illinois Institute of Technolqy in partial fullillment of the requirements for the degree, Master of Science. (3) A. F. McKag and G. P Wright, Tm8 JOURNAL, 69, 3028 (1947) (4) Micliaelis aiid Erdmauil, BcY.,'28, 2198 (1885).

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and hence comprised the major product. pNaphthylamine, on the other hand, gave only one product, the expected N-(p-naphthyl)-”-nitroguanidine in 65% yield. The unexpected formation of the azo dye in large yield in the reaction of a-naphthylamine with N - methyl - N - nitroso - N’ - nitroguariidine prompted a study of the reaction of aromatic amine hydrochlorides with the same reagent. With both the hydrochlorides of a- and 0-naphthylamine, only one product was obtained, namely, the azo dye in practically quantitative yield. For example, @-naphthylamine hydrochloride gave a %yoyield of 2-amino-a,fi-azonaphthalene (IV). An examination of the byproduct indicated that the reaction may be represented as

4 n ~ 1 . Calcd. ~ for CllHIOX02: C, 57.38; H , 4.38; N,24.34. Found: C,57.50; H,4.47; N,24.27. The filtrate on dilution with water precipitated a greenish-brown powder which after recrystallization from ethanol gave 2.0 g. (500/0) of brownish-green needles which were identified as 4-amino-a,a-azonaphthalene (111), m. o. 173-175’. Anal. Calcd. for C2oH16Na: C, 80.78; H, 5.09; N , 14.13. Found: C,80.58; H,5.12; N , 14.17. N-( b-Naphthyl)-N’-nitroguanidine.aTo6.5 g. (0.045 mole) of P-naphthylamine (m. p. 107 , test for chloride negative) dissolved in 150 ml. ethanol and cooled to 2 5 ” , was added 2.5 g. (0.017 mole) of N-methy1-N-nitroso-i’nitroguanidine. The solution was allowed t o stand a t room temperature for 48 hours. The precipitate of coarse yellow crystals was collected on a Buchner funnel and washed with a small amount of alcohol. A yield of 2.8 g: (72%) of crude product was obtained. For purification the product was recrystallized twice from alcohol using decolorizing carbon. The purified product, in. p. 195-196”, was obtained in 65% yield.

0 = N - (-7) k

st i 2 IV

N-methyl-IL”-nitroguanidiiie5 (VI was isolated in 60% yield. Further study has indicated that the reaction is a general one for similarly constituted nitrosamines. Nitrosoguanidine (VI) with P-naphthylamine hydrochloride gave a 90% yield of the azo dye (IV) and guanidine was isolated from the reaction mixture. I n a similar manner methylnitrosourea (VII) also gave a 90% yield of the azo dye (IV). SO

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A study of the literature including that of a recent monographa has indicated that the reaction discussed above is a unique method for the preparation of azo dyes. Experimental’

N-Methyl-N-nitroso-N’-nitroguanidine (I).-This

was prepared from N-methyl-N’aitroguanidine by the method of McKay.6 The product had a m. p. of 116-118” and was obtained in 80% yield. thylamine. Formation of

nuanidhe. ( 5 ) A. F. M c K a y , THISJOURNAL, 71, 1968 (1948). (6) K. H.Saunders, “The Aromatic Diazo Cotnpouii